CN111535729A - Use solar energy self-powered wireless control cavity shutter - Google Patents

Abstract

The invention relates to the technical field of hollow glass windows, in particular to a wireless control hollow shutter using solar energy self-power supply. During the use of the solar self-powered wireless control hollow blinds, the power supply of the motor comes from the electric energy generated by the solar panels outside the hollow blinds, and the motor drives the rotating shaft to rotate through the coupling, so as to realize the rise or fall of the blinds, pull and turn over. The ladder rope can realize the conversion of the angle of the venetian blinds; the control box is equipped with a battery and a signal receiving device for storing the electric energy generated by the solar panels, and the corresponding control box is equipped with a wireless operation panel and a remote control, which can realize the adjustment of the venetian blinds. The remote control can realize the wireless long-distance control of the blinds. In a word, the wireless control hollow shutter using solar energy self-power supply is simple in structure, more energy-saving and environmentally friendly by using solar energy, and the operator's difficulty and intensity are reduced by electric setting, which is suitable for popularization and use.

Description

A wireless control hollow shutter using solar energy self-powered

technical field

The present invention relates to the technical field of hollow glass windows, in particular to a wireless control hollow shutter using solar energy self-power supply.

Background technique

Insulating glass shutters have the following self-evident advantages: good heat insulation, which is beneficial to the energy saving of the entire building; excellent sound insulation, which can avoid the disturbance of external noise; anti-condensation and frost are conducive to ensuring sufficient indoor light; By adjusting the turning angle of the venetian blinds, it can meet the required indoor lighting requirements and protect privacy; it can prevent dust from contaminating the venetian blinds (referred to as the venetian blinds), showing an excellent no-cleaning effect; Strong impact, good safety and long service life can meet the extreme long-term use and maintenance-free requirements of high-rise buildings.

The common feature of the existing commonly used hollow glass built-in shutters is that the outer manipulator disposed on the side of the inner glass facing the room is magnetically attracted to each other through the inner glass and the inner manipulator disposed between the inner and outer glasses. When the outer manipulator is moved up or down, the outer manipulator will drive the inner manipulator to move accordingly, and the inner manipulator will drive the curtain rollover rope or the lift rope to drive the relevant transmission parts, so that the curtain piece can be turned over or the leaf curtain can be lifted and lowered. . However, as the width and area of the blinds become larger and larger, because the above-mentioned commonly used design thinking relies on the aforementioned inner and outer controllers, there are at least the following shortcomings: First, the inner glass facing the indoor side is provided with an outer The manipulator and the sliding guide strip make the overall cleanliness of the inner glass have a certain visual impact; the second is that the up and down operation of the external manipulator is relatively laborious, so it is not convenient for the elderly, infirm and minors to operate lightly and effortlessly; The third is that the structure is relatively complicated due to the need to set up a transmission structure inside the window, such as traction rope, direction changing sheave, inner manipulator, overturning traction rope tensioning device, etc. Fourth, most hollow shutters require an external power supply and cannot It is not conducive to energy saving and environmental protection to provide electricity by yourself.

At present, the aforementioned deficiencies are caused by unavoidable and inevitable structural factors, unless subversive changes are made to the structural design of the insulating glass built-in shutters, and the technical solutions to be introduced below are generated in this context.

SUMMARY OF THE INVENTION

In order to overcome the defects existing in the background technology, the technical solution adopted by the present invention to solve the technical problem is: a wireless control hollow shutter using solar energy self-power supply, including a window, a shutter, a shutter turning and lifting mechanism, a motor, Control box, U-shaped hanging board, inner glass and outer glass, the U-shaped hanging board is clamped above the composite upper frame, the outer surface of the U-shaped hanging board is fixed with a solar cell panel, and the U-shaped hanging board is A control box is fixed on the inner side of the panel, the solar panel and the control box are connected together by a power connection line, and the control box is connected with the motor through a control line, and the curtain flipping and lifting mechanism includes: A rotating shaft, a winding device, a turning wheel and a fixing seat, the winding device is sleeved and fixed on the rotating shaft, one end of the winding device is provided with a turning wheel, and the outer side of the turning wheel is provided with a bearing mounting seat, the A bearing is fixed on the bearing mounting seat, the rotating shaft passes through the turning wheel and the bearing, the rotating shaft is arranged in the fixing seat through the turning wheel and the bearing, the fixing seat is fixed on the upper part of the window, and the winding The other end of the threader is provided with a rope fixing plug, the rope fixing plug is fixed on the rotating shaft by the plug fixing screw, the rope fixing plug is provided with a rope clamping groove, and the curtain The sheet turning and lifting mechanism is connected with the motor through a rotating shaft and a coupling; the motor includes a motor body, a coupling and a casing, the motor is fixed on the upper part of the window, and the motor can be driven by the coupling The rotating shaft rotates, and then drives the spooler to rotate through the rotating shaft; the venetian blinds include a curtain sheet, a lifting rope, a flipping ladder rope and a bottom strip of the venetian blind, and the lifting rope passes through the curtain sheet and is wound around the winding. On the device, one end of the lifting rope is fixed on the bottom strip of the venetian blind, the other end of the lifting rope is fastened and fixed in the rope clamping groove, and one end of the overturning ladder rope is set on the overturning wheel, The other end of the overturning ladder rope is fixed on the bottom strip of the venetian blind, the control box has the function of motor control and electronic stroke control, and the control box is provided with a battery for storing the electric energy generated by the solar panel and a signal receiver. The corresponding control box is provided with a wireless operation panel and a remote control, and the wireless operation panel and the remote control are provided with a power supply and a signal transmitting device.

Preferably, the window includes a composite upper frame, a side frame and a lower frame, two ends of the composite upper frame are connected to the upper end of the side frame through connecting gussets, and both ends of the lower frame are connected to the upper end of the side frame through connecting gussets. The lower ends of the side frames are connected together; the shutter reversing and lifting mechanism and the motor are arranged in the composite upper frame; the wireless operation panel is arranged on the wall along with the side frames.

Preferably, the inner glass is arranged on the front side of the window, the outer glass is arranged at the rear side of the window, the inner glass and the peripheral edges of the outer glass are fixed on the window by sealant, and the inner glass is preferably fixed on the window. The space between the glass, the outer glass and the window forms a venetian blind cavity, and the venetian blind is arranged in the venetian blind cavity;

Preferably, the composite upper frame is composed of a rear upper frame and a front upper frame, the rear upper frame and the front upper frame are fastened and fixed together, and the rear upper frame and the front upper frame are combined to form a pierced through from the left end to the right end The inner cavity of the upper frame of the upper frame, the curtain flipping and lifting mechanism and the motor are arranged in the inner cavity of the upper frame; the length direction of the middle part of the rear upper frame is provided with a wire trough from the left end to the right end, the control wire It can be passed through the wire slot, and the control wire is connected with the control box after passing through the upper end of the side frame.

Preferably, the bottom of the fixed seat is provided with a bottom hole of the fixed seat and a pull rope through hole, the flipping ladder rope passes through the bottom hole of the fixed base, and the lift pull rope passes through the pull rope through hole.

Preferably, the wireless operation panel and the remote control are provided with a venetian blind up button, a venetian blind stop button and a venetian blind descending button.

Preferably, the motor can drive the rotating shaft to rotate through the coupling, and the rotation of the rotating shaft can drive the venetian blind to rise or fall through the winding device and the lifting rope.

Preferably, the rotation of the rotating shaft can drive the rotation of the turning wheel, and the rotation of the turning wheel can change the direction and angle of the blind by turning the ladder rope.

Preferably, the cross-sectional shape of the rotating shaft is a regular hexagon, the winder is provided with a groove for increasing the resistance of the lifting rope, and the two sides of the side frame are provided with extension bars.

Preferably, the motor is a forward and reverse rotation motor, the rated voltage of the motor is 3-24 volts, and the power of the motor is 3-50 watts.

The invention relates to a wireless control hollow shutter using solar energy self-power supply. During the use process of the wireless control hollow blind using solar energy self-power supply, the power supply of the motor comes from the electric energy generated by the solar panel outside the hollow shutter, and the motor is connected to The shaft drives the rotating shaft to rotate, the rotating shaft drives the spooler to rotate, one end of the lifting rope is clamped and fixed in the rope clamping groove, and the rotation of the rotating shaft can wind the lifting rope around the spooler, and at the same time under the influence of gravity. The shutter can be lifted and lowered under the action, and the angle of the shutter can be changed by pulling the flip ladder rope. The flip ladder rope passes through the bottom hole of the fixed seat, and the lift rope passes through the pull rope perforation, which can effectively avoid flipping the ladder. The rope and the lifting rope are intertwined with each other; the curtain sheet turning and lifting mechanism and the motor are arranged in the inner cavity of the upper frame; the length direction of the middle part of the rear upper frame is provided with a wire trough which runs through from the left end to the right end, and the said The control wire can pass through the wire slot, this design avoids the disorderly arrangement of the control wire and effectively protects the control wire; the control box is equipped with a battery and a signal receiving device for storing the electric energy generated by the solar panel. The corresponding control box is provided with a wireless operation panel and a remote control, the wireless operation panel can realize the wireless control of the venetian blinds, and the remote control can realize the wireless long-distance control of the venetian blinds. In a word, the wireless control hollow shutter using solar energy self-power supply is simple in structure, more energy-saving and environmentally friendly by using solar energy, and the operator's difficulty and intensity are reduced by electric setting, which is suitable for popularization and use.

Description of drawings

The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

FIG. 1 is a schematic structural diagram of a wireless control hollow shutter using solar energy self-power supply according to the present invention;

2 is a schematic diagram 1 of the internal structure of a wireless control hollow shutter using solar energy self-power supply according to the present invention;

3 is a schematic diagram 2 of the internal structure of a wireless control hollow shutter using solar energy self-power supply according to the present invention;

FIG. 4 is a schematic diagram 3 of the internal structure of a wireless control hollow shutter using solar energy self-power supply according to the present invention;

5 is a cross-sectional view of a composite upper frame in the present invention;

6 is a cross-sectional view of a side frame in the present invention;

7 is a cross-sectional view of a lower frame in the present invention;

Among them: 1. window; 11. composite upper frame; 111, rear upper frame; 112, front upper frame; 113, inner cavity of upper frame; 114, wiring groove; 12, side frame; 121, extension strip; 13, Lower frame; 14. Connecting gussets; 2. Venetian blinds; 21. Curtains; 22 Lifting ropes; 23. Turning ladder ropes; 24. Venetian blinds bottom strips; 3. Motors; 31. Motor body; 32. Connecting shafts device; 33, shell; 4, curtain turning and lifting mechanism; 41, rotating shaft; 42, winder; 422, rope fixing plug; 423, plug fixing screw; 424, bearing mounting seat; 4221, pull Rope clamping groove; 43, fixed seat; 433, bottom hole of the fixed seat; 435, perforation of the rope; 44, turning wheel; 444, bearing; 5, control box; 6, control wire; 61, U-shaped hanging plate; 62 , power cable; 63, solar panel, 71, wireless operation panel; 72, remote control; 8a, outer glass; 8b, inner glass; 9, sealant; 10, Venetian blind cavity.

Detailed ways

The present invention will now be described in further detail with reference to the accompanying drawings. The accompanying drawings are simplified schematic diagrams, and only illustrate the basic structure of the present invention in a schematic manner, and thus only show the structures related to the present invention.

Please refer to Fig. 1-7, a solar-powered self-powered wireless control hollow blind, including window 1, blinds 2, shutter turning and lifting mechanism 4, motor 3, control box 5, U-shaped hanging plate 61, inner The glass 8b and the outer glass 8a are characterized in that the U-shaped hanging plate 61 is clamped above the composite upper frame 11, and a solar cell panel 63 is fixed on the outer surface of the U-shaped hanging plate 61. A control box 5 is fixed on the inner surface of the hanging board 61 , the solar panel 63 and the control box 5 are connected together by a power connection line 62 , and the control box 5 is connected with the motor 3 by a control line 6 , The curtain turning and lifting mechanism 4 includes a rotating shaft 41, a winding device 42, a turning wheel 44 and a fixing seat 43. The winding device 42 is sleeved and fixed on the rotating shaft 41, and one end of the winding device 42 is provided with There is a turning wheel 44, a bearing mounting seat 424 is provided on the outside of the turning wheel 44, a bearing 444 is fixed on the bearing mounting seat 424, and the rotating shaft 41 passes through the turning wheel 44 and the bearing 444, and the rotating shaft 41 is set in the fixing seat 43 through the turning wheel 44 and the bearing 444, the fixing seat 43 is fixed on the upper part of the window 1, and the other end of the winder 42 is provided with a cable fixing plug 422, and the cable The fixed plug 422 is fixed on the rotating shaft 41 by the plug fixing screw 423. The rope fixing plug 422 is provided with a rope clamping groove 4221. The shaft 32 is connected with the motor 3; the motor 3 includes a motor body 31, a coupling 32 and a casing 33, the motor 3 is fixed on the upper part of the window 1, and the motor 3 can be driven by the coupling 32 The rotating shaft 41 rotates, and then drives the spool 42 to rotate through the rotating shaft 41; the venetian blind 2 includes the slat 21, the lifting rope 22, the overturning ladder rope 23 and the venetian blind bottom strip 24. The curtain sheet 21 is passed through and wound on the winder 42, one end of the lift cord 22 is fixed on the venetian blind bottom strip 24, and the other end of the lift cord 22 is fastened and fixed in the cord clamping groove 4221 Inside, one end of the overturning ladder rope 23 is arranged on the overturning wheel 44, and the other end of the overturning ladder rope 23 is fixed on the venetian blind bottom strip 24; the control box 5 has a motor control function and an electronic stroke control function, The control box 5 is provided with a storage battery and a signal receiving device for storing the electric energy generated by the solar panel 63 , and a wireless operation panel 71 and a remote control 72 are arranged corresponding to the control box 5 . Provided with a power supply and a signal transmitting device, the window 1 includes a composite upper frame 11, a side frame 12 and a lower frame 13, and the two ends of the composite upper frame 11 are connected with the upper end of the side frame 12 through the connecting corners 14. , the two ends of the lower frame 13 are connected with the lower end of the side frame 12 through the connecting corners 14; the curtain flipping and lifting mechanism 4 and the motor 3 are arranged in the composite upper frame 11; the wireless operation panel is accompanied by set on the side frame On the wall, the inner glass 8b is arranged on the front side of the window 1, the outer glass 8a is arranged on the rear side of the window 1, and the peripheral edges of the inner glass 8b and the outer glass 8a are sealed by sealing. The glue 9 is fixed on the window 1, the space between the inner glass 8b, the outer glass 8a and the window 1 constitutes a venetian blind cavity 10, the venetian blind 2 is arranged in the venetian blind cavity 10, and the composite upper The frame 11 is composed of a rear upper frame 111 and a front upper frame 112, the rear upper frame 111 and the front upper frame 112 are fastened together, and the rear upper frame 111 and the front upper frame 112 are combined to form a The inner cavity 113 of the upper frame at the right end, the curtain flipping and lifting mechanism 4 and the motor 3 are arranged in the inner cavity 113 of the upper frame; the length direction of the middle part of the rear upper frame 111 is provided with a wiring running from the left end to the right end Slot 114, the control wire 6 can pass through the wire slot 114, the control wire 6 is connected with the control box 5 after passing through the upper end of the side frame 12, the bottom of the fixing seat 43 is provided with a fixing seat The bottom hole 433 and the through hole 435 for the pull rope, the flipping ladder rope 23 passes through the bottom hole 433 of the fixed seat, the lifting pull rope 22 passes through the through hole 435 for the pull rope, the wireless operation panel 71 and the remote control 72 There is a venetian blind 2 up button, a venetian blind 2 stop button and a venetian blind 2 down button, the motor 3 can drive the rotating shaft 41 to rotate through the coupling 32, and the rotation of the rotating shaft 41 can pass through the winder 42 and lift. The pull rope 22 drives the blind 2 to rise or fall, the rotation of the rotating shaft 41 can drive the rotation of the turning wheel 44, and the rotation of the turning wheel 44 can change the direction and angle of the blind 2 by turning the ladder rope 23. The cross-sectional shape of 41 is a regular hexagon, the winder 42 is provided with a groove to increase the resistance of the lifting rope 22, the two sides of the side frame 12 are provided with extension bars 121, and the motor 3 is positive and negative. Turn the motor, the rated voltage of the motor 3 is 3-24 volts, and the power of the motor 3 is 3-50 watts.

The present invention relates to a wireless control hollow shutter using solar energy self-power supply. During the use process of the wireless control hollow blind using solar energy self-power supply, the power supply of the motor 3 comes from the electric energy generated by the solar panel 63 outside the hollow shutter. 3. The rotating shaft 41 is driven to rotate by the coupling 32, the rotating shaft 41 drives the reel 42 to rotate, one end of the lifting rope 22 is clamped and fixed in the rope clamping groove 4221, and the rotation of the rotating shaft 41 can make the lifting rope 22 is wound around the winder 42, and at the same time, the shutter can be lifted and lowered under the action of gravity. Pulling the overturning ladder rope 23 can realize the conversion of the two angles of the shutter. The pull rope 22 passes through the pull rope perforation 435, which can effectively avoid the mutual entanglement between the flipping ladder rope 23 and the lifting rope 22; the curtain flipping and lifting mechanism 4 and the motor 3 are arranged in the upper frame cavity 113; The length direction of the middle of the rear upper frame 111 is provided with a wiring slot 114 that runs from the left end to the right end, and the control wire 6 can pass through the wiring slot 114. Such a design avoids the disorderly arrangement of the control wires 6 , to effectively protect the control line 6; the control box 5 is provided with a storage battery and a signal receiving device for storing the electric energy generated by the solar panel 63, and the corresponding control box 5 is provided with a wireless operation panel 71 and a remote control 72, and the wireless operation panel 71 The wireless control of the blinds 2 can be realized, and the remote control 72 can realize the wireless remote control of the blinds 2 . In a word, the wireless control hollow shutter using solar energy self-power supply is simple in structure, more energy-saving and environmentally friendly by using solar energy, and the operator's difficulty and intensity are reduced by electric setting, which is suitable for popularization and use.

Obviously, the above-mentioned embodiments are only examples for clear description, and are not intended to limit the implementation manner. For those of ordinary skill in the art, changes or modifications in other different forms can also be made on the basis of the above description. There is no need and cannot be exhaustive of all implementations here. And the obvious changes or changes derived from this are still within the protection scope of the present invention.

Claims (9)

1. The utility model provides an use wireless control cavity shutter of solar energy self-power, includes window form (1), blind (2), curtain piece upset and elevating system (4), motor (3), control box (5), U-shaped link plate (61), interior glass (8b) and outer glass (8a), its characterized in that, U-shaped link plate (61) chucking is in the top of compound upper frame (11), be fixed with solar cell panel (63) on the lateral surface of U-shaped link plate (61), be fixed with control box (5) on the medial surface of U-shaped link plate (61), link together through power connecting wire (62) between solar cell panel (63) and control box (5), control box (5) link together through control line (6) and motor (3), curtain piece upset and elevating system (4) are including axis of rotation (41), spooler (42), The window curtain sheet overturning and lifting mechanism comprises an overturning wheel (44) and a fixed seat (43), wherein a winder (42) is fixedly sleeved on a rotating shaft (41), the overturning wheel (44) is arranged at one end of the winder (42), a bearing installation seat (424) is arranged on the outer side of the overturning wheel (44), a bearing (444) is fixedly arranged on the bearing installation seat (424), the rotating shaft (41) penetrates through the overturning wheel (44) and the bearing (444), the rotating shaft (41) is arranged in the fixed seat (43) through the overturning wheel (44) and the bearing (444), the fixed seat (43) is fixedly arranged on the upper portion of a window body (1), a pull rope fixing plug (422) is arranged at the other end of the winder (42), the pull rope fixing plug (422) is fixedly arranged on the rotating shaft (41) through an overturning screw (423), a pull rope clamping groove (4221) is formed in the pull rope fixing plug (422), and the curtain sheet overturning and lifting mechanism (4) and a motor (32) are fixedly arranged on the rotating shaft (41 3) Are connected together; the motor (3) comprises a motor body (31), a coupler (32) and a shell (33), the motor (3) is fixed on the upper portion of the window body (1), the motor (3) can drive the rotating shaft (41) to rotate through the coupler (32), and then the rotating shaft (41) drives the winder (42) to rotate; the blind (2) comprises a curtain sheet (21), a lifting stay cord (22), a turning ladder rope (23) and a blind bottom bar (24), the lifting stay cord (22) penetrates through the curtain sheet (21) and is wound on a winder (42), one end of the lifting stay cord (22) is fixed on the blind bottom bar (24), the other end of the lifting stay cord (22) is clamped and fixed in a stay cord clamping groove (4221), one end of the turning ladder rope (23) is arranged on a turning wheel (44), the other end of the turning ladder rope (23) is fixed on the blind bottom bar (24), the control box (5) has a motor control function and an electronic stroke control function, a storage battery and a signal receiving device which are used for storing electric energy generated by a solar cell panel (63) are arranged in the control box (5), and a wireless operation panel (71) and a remote controller (72) are arranged corresponding to the control box (5), and a power supply and a signal transmitting device are arranged in the wireless operation panel (71) and the remote controller (72).

2. A wireless control hollow shutter self-powered by solar energy according to claim 1, characterized in that the window body (1) comprises a composite upper frame (11), a side frame (12) and a lower frame (13), both ends of the composite upper frame (11) are connected with the upper end of the side frame (12) through a connecting inserting angle (14), both ends of the lower frame (13) are connected with the lower end of the side frame (12) through the connecting inserting angle (14); the curtain sheet overturning and lifting mechanism (4) and the motor (3) are arranged in the composite upper frame (11); the wireless operation panel (71) is arranged on a wall body along with the side frame (12).

3. A wireless control hollow blind powered by solar energy as claimed in claim 1, characterized in that the inner glass (8b) is arranged at the front side of the window body (1), the outer glass (8a) is arranged at the rear side of the window body (1), the peripheral edge parts of the outer sides of the inner glass (8b) and the outer glass (8a) are fixed on the window body (1) by sealant (9), the space between the inner glass (8b), the outer glass (8a) and the window body (1) is formed into a blind cavity (10), and the blind (2) is arranged in the blind cavity (10);

the solar self-powered wireless control hollow shutter as claimed in claim 1, wherein the composite upper frame (11) is composed of a rear upper frame (111) and a front upper frame (112), the rear upper frame (111) and the front upper frame (112) are clamped and fixed together, the rear upper frame (111) and the front upper frame (112) are combined to form an upper frame inner cavity (113) penetrating from the left end to the right end, and the shutter turnover and lifting mechanism (4) and the motor (3) are arranged in the upper frame inner cavity (113); the length direction in back upper frame (111) middle part is provided with one and link up to wiring groove (114) of right-hand member from the left end, control line (6) can pass in wiring groove (114).

4. A solar self-powered wireless control hollow blind as claimed in claim 1, wherein the bottom of the fixing base (43) is provided with a fixing base bottom hole (433) and a pulling rope through hole (435), the tilting ladder rope (23) passes through the fixing base bottom hole (433), and the lifting pulling rope (22) passes through the pulling rope through hole (435).

5. A wireless control hollow blind powered by solar energy as claimed in claim 1, characterized in that said wireless operation panel (71) and remote controller (72) are provided with a blind (2) up button, a blind (2) stop button and a blind (2) down button.

6. A wireless control hollow blind powered by solar energy as claimed in claim 1, characterized in that said motor (3) is able to rotate the rotation shaft (41) through the coupling (32), the rotation of the rotation shaft (41) being able to raise or lower the blind (2) through the winder (42) and the lifting cord (22).

7. An electrically controlled window blind according to claim 1, characterized in that the turning of the turning shaft (41) causes the turning wheel (44) to turn, and the turning of the turning wheel (44) causes the direction and angle of the blind (2) to be changed by turning the ladder cord (23).

8. A solar self-powered wireless control hollow blind as claimed in claim 1, wherein the cross section of the rotating shaft (41) is regular hexagon, the winder (42) is provided with a groove for increasing the resistance of the lifting rope (22), and the two sides of the side frame (12) are provided with extending strips (121).

9. A wireless control hollow blind powered by solar energy in accordance with claim 1, characterized in that said electric motor (3) is a counter-rotating electric motor, said electric motor (3) being rated for 3-24 volts and the electric motor (3) being powered by 3-50 watts.

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